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Methods to Assess Microbial Populations01:30

Methods to Assess Microbial Populations

Assessing microbial populations is crucial for understanding microbial roles in health, ecology, and industry. Various complementary techniques—both culture-based and molecular—enable detailed analysis of microbial abundance, diversity, and function.Viable Plate CountThe viable plate count is a traditional culture-based method used to estimate the number of living microbes in a sample. After serial dilution, the sample is spread onto nutrient agar plates. Each viable cell forms a visible...
Evolution of New Traits in Microbes01:24

Evolution of New Traits in Microbes

Microorganisms evolve rapidly due to their large population sizes and short generation times, often exhibiting measurable changes within days under laboratory conditions. Natural selection acts on standing genetic variation, enabling the retention and amplification of beneficial traits that confer fitness advantages in changing environments.Adaptive Pigment Regulation in RhodobacterIn Rhodobacter, a genus of purple non-sulfur bacteria, light-harvesting pigments such as bacteriochlorophyll and...
Microbial Growth Measurement: Indirect Methods01:27

Microbial Growth Measurement: Indirect Methods

Estimating microbial growth is essential for understanding population dynamics and environmental adaptations. Indirect methods provide valuable insights by measuring parameters such as turbidity, metabolic activity, and biomass, enabling efficient and reproducible assessments.During exponential growth, microbial cells scatter light proportionally to their biomass, a principle used in turbidity measurements. About one million cells per milliliter produce detectable scattering, which a...
Phylogenetic Species Concept in Microbiology01:22

Phylogenetic Species Concept in Microbiology

The phylogenetic species concept (PSC) is a framework used to delineate species based on evolutionary relationships, emphasizing shared ancestry and diagnosable genetic traits. Unlike morphological or biological species concepts, the PSC is particularly advantageous for microbial taxonomy, where traditional reproductive or phenotypic criteria often fall short due to the prevalence of asexual reproduction, minimal morphological differentiation, and widespread horizontal gene transfer among...
Methods to Assess Microbial Communities01:19

Methods to Assess Microbial Communities

Microbial communities, comprising bacteria, archaea, and eukaryotic microorganisms, inhabit diverse ecosystems and play crucial roles in environmental and biological processes. Their diversity is defined by three main parameters: species richness (the number of distinct species), species abundance (the relative quantity of each species), and species evenness (how uniformly individual species are distributed in various locations). These factors together shape the structure and ecological balance...
Evolution of Microbial Genome01:08

Evolution of Microbial Genome

Microbial genome evolution is a highly dynamic process shaped by continual gene gain and loss across species and strains. This genomic flexibility allows microorganisms to adapt rapidly to environmental pressures and interactions with other organisms. Central to understanding this diversity is the distinction between the core and pan genomes.The core genome comprises the genes shared by all sampled strains of a species, representing essential functions needed for fundamental cellular processes.

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Updated: May 19, 2026

Phage Phenomics: Physiological Approaches to Characterize Novel Viral Proteins
09:40

Phage Phenomics: Physiological Approaches to Characterize Novel Viral Proteins

Published on: June 11, 2015

When should we expect microbial phenotypic traits to predict microbial abundances?

Jeremy W Fox1

  • 1Department of Biological Sciences, University of Calgary Calgary, AB, Canada.

Frontiers in Microbiology
|August 10, 2012
PubMed
Summary
This summary is machine-generated.

Species traits may not predict abundance. Niche differences, not just adaptation, influence species coexistence and relative abundance. Understanding trait-frequency dependence is key for future ecological research.

Keywords:
coexistencecompetitive exclusionfrequency dependencelocal adaptationtrait-abundance correlations

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09:57

Characterizing Microbiome Dynamics – Flow Cytometry Based Workflows from Pure Cultures to Natural Communities

Published on: July 12, 2018

Area of Science:

  • Ecology
  • Evolutionary Biology

Background:

  • Species phenotypic traits are often assumed to predict their relative abundances.
  • Abundant species are intuitively considered well-adapted to local conditions, while rare species are not.

Purpose of the Study:

  • To investigate the relationship between species' phenotypic traits, adaptedness, and relative abundance.
  • To challenge the intuitive link between adaptation and abundance in ecological communities.

Main Methods:

  • A simple theoretical model was developed.
  • The model incorporated adjustable levels of "adaptedness" and "niche differences" between competing species.

Main Results:

  • Even minor niche differences can weaken or reverse the correlation between adaptive traits and abundance.
  • Strong niche differences can lead to adaptive traits conferring high abundance.
  • The best-adapted species does not necessarily exclude others if niche differences allow coexistence.

Conclusions:

  • The intuitive link between phenotypic traits and species abundance may be invalid due to niche differentiation.
  • Niche differences play a crucial role in determining species coexistence and relative abundance.
  • Future research should focus on the frequency-dependence of demographic rates in relation to phenotypic traits.